Plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers

ABSTRACT

The present invention relates to a plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers, which is applied to suction working conditions in highly deviated well sections. It comprises three pump cylinders, which are combined type including two fixed cylinders and a dynamic cylinder, two centralizers, which are combined type including a dynamic spiral centralizer and fixed spiral centralizer, a fixed cone valve, a cylinder and plug integrated springing fixed cone valve, a fixed plunger and a movable guide rod cone valve to solve the problems such as stuck pump, eccentric wear between plunger and pump cylinder and valve leakage.

CROSS-REFERENCE TO RELATED APPLICATION

This publication is made based on the Chinese patent application CN202010294874.8 filed on Apr. 15, 2020 with Chinese patent priority claimed, the full content of which is incorporated by reference herein.

FIELD OF THE INVENTION

The present invention relates to a sucker rod pump used for oil and gas exploitation in highly deviated well sections, and more specifically, to a plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers.

BACKGROUND OF THE INVENTION

There are a lot of problems for the sucker rod pump at the highly deviated well sections of the horizontal wells and inclined wells during the stable production stage, such as severe eccentric wear between the pump cylinder and the plunger, difficulty to open and lagging reset for the fixed valve and traveling valve, leakage of oil, and pumps buried or stuck by sand, these problems make the service life and the efficiency of pumps decreased, and the pump inspection cycle shorter.

At present, the commonly used sucker rod pumps suitable for highly deviated wells in other countries mainly include rotating plunger pumps and spiral-flow plunger sand control pumps. The upward component force of the well fluid in the rotating plunger pump acts on the upper part of the spiral groove, and the plunger of the rotating plunger pump receives the torsion moment and rotates. The greater the angle of the spiral groove outside of the pump body, the greater the circumferential force on the plunger and the plunger rotates faster, which solves the problem of eccentric wear between the pump cylinder and plunger and effectively prevents sand sticking to a certain extent. The spiral-flow plunger sand control pump can remove the sand between the pump cylinder and the plunger, and the well fluid carrying the sand enters the outer oil tube through the internal flow channel of the plunger. The well fluid above the plunger is in a vortex state, thus the regular problems such as stuck pump and eccentric wear of the oil pump are solved, and service life of the pump is extended. The commonly used sucker rod pumps suitable for highly deviated wells in China mainly include the equal diameter sand-scraping and sand-control pumps and long plunger sand-control pumps. The plunger of the equal diameter sand-scraping and sand-control pump has a sand-scraping effect and scrapes the sand near the inner wall of the plunger falling in the plunger cavity, the plunger also has the characteristics of self-washing during the down stroke, so as to solve the problems of stuck pump and eccentric wear. The plunger of the long plunger sand-control pump is longer than the pump cylinder, and part of the plunger is always exposed above the pump cylinder, which can reduce the probability of sand entering the gap between the plunger and the pump cylinder. At the same time, the pump adopts a lateral oil inlet; an annular cavity is formed between the pump cylinder and the outer pipe to remove the sand, by which the problem of stuck pump by sand is solved. Because the inclination angles in the inclined well section of the horizontal well and the pump hanging position in the inclined well are too large, the valve balls of the above high deviated pumps still have problems such as ball valve setting lag and valve leakage in actual mining, and there is no specifically designed centering device for the plunger, so, there is still a certain amount of sand abrasion and eccentric wear between the plunger and the pump cylinder. At the same time, the plunger is still made of hard materials, and the bending and torsion performance of the plunger is poor, which is not suitable for highly deviated well sections and high oil viscosity working conditions.

Based on the numerical simulation results of the multiphase flow regime of the sucker rod pump in the highly deviated well section and the test results in the main oil and gas fields such as Sheng li Oilfield and Liao he Oilfield, and unconventional well fields such as the eastern margin of Ordos, a novel cone-valve pump equipment with multiple pump cylinders, automatic centralizers and plug and valve integrated structure has been developed to solve the problems of eccentric wear, stuck pump and pump valve leakage in the well sites.

SUMMARY OF THE INVENTION

In order to effectively solve the technical problems about high-efficiency pumping in the horizontal wells and inclined wells in the oil and gas exploitation field and overcome the defects and shortcomings of the existing sucker rod pump devices in the high deviated well sections, the present invention provides a plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers used for oil and gas exploitation in the highly deviated well sections. The plug and valve integrated cone valve pump is comprised of combined type two fixed cylinders and one movable cylinder (movable and fixed three-cylinder body), combined type a movable spiral centralizer and a fixed spiral centralizer (movable and fixed double-centralizer), a fixed cone valve and a plunger integrated springing fixed cone valve, a fixed plunger and a guide rod integrated with the movable cone valve (guide rod type traveling cone valve), the plug and valve integrated cone valve pump solves the technological difficulties such as stuck pump by sand when production operation in the horizontal wells and inclined wells under condition of low liquid volume, difficult to open and close pump valve under condition of low submergence depth, the eccentric wear of the plunger and the pump cylinder and the leakage of the pump valve in the highly deviated well sections.

The technical solution adopted by the present invention to solve the technical problems is to provide a plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers, which is mainly composed of a movable and fixed three-cylinder body, a movable cone valve integrated with guide rod, a springing fixed cone valve, a movable and fixed double-centralizer, and a fixed plunger body. The plug and valve integrated cone valve pump adopts an axial symmetry cylinder body structure on the whole, which is connected to the tubing string and the air anchor through the movable and fixed three-cylinder body, and is connected with the rod string through the guide rod integrated with the movable cone valve, the guide rod integrated with the movable cone valve, the combined type movable and fixed double centralizers and the middle movable pump cylinder move up and down with the rod; the springing fixed cone valve and the fixed plunger are arranged in the cylinder cavity of the middle movable pump cylinder from top to bottom along the axial direction, and the springing fixed cone valve, the fixed plunger, the external fixed pump cylinder and the internal fixed pump cylinder are fixed at the bottom of the tubing string.

The movable and fixed three-cylinder body adopts combined type movable and fixed three-cylinder body and is composed of a movable pump cylinder and two fixed pump cylinders. Relied on the internal fixed pump cylinder, the springing fixed cone valve and the fixed plunger are connected together as a whole, the guide rod integrated with the movable cone valve and the movable and fixed double-centralizer are connected together as a whole through the middle movable pump cylinder, by which it is avoid that sand falls into the annular clearance between the movable pump cylinder and the fixed plunger and causes abrasion. The movable and fixed three-cylinder body includes the external fixed pump cylinder, the middle movable pump cylinder, the internal fixed pump cylinder and the pump cylinder coupling.

Both ends of the external fixed pump cylinder, the middle movable pump cylinder and the internal fixed pump cylinder are all with sealing pipe threads, which are arranged concentrically from the outside to the inside along the radial direction. The external fixed pump cylinder and the internal fixed pump cylinder are the long and thick cylinder and the short and thin cylinder respectively, and are fixed to the bottom of the tubing string through the pump cylinder coupling. The middle movable pump cylinder adopts a long and thin cylinder and is connected to the bottom of the rod string through a guide rod integrated with the movable cone valve. The middle movable pump cylinder is successively provided with a variable diameter movable cylinder joint, an upper cylinder limit ring and a lower cylinder limit ring along the axial direction. The lower cylinder limit ring realizes the axial positioning of the centering coupling, and the upper cylinder limit ring realizes the lower limit of the upper movable spiral. The outer wall of the variable diameter movable cylinder joint is connected with the movable cone valve cover and the movable centering limit ring through threads. The annular cavity inner wall of the variable diameter movable cylinder joint consists of two cylindrical surfaces and a conical surface, the top cylindrical surface diameter of the annular cavity inner wall of the variable diameter movable cylinder joint is equal to the diameter of the movable valve hole in the movable cone valve seat, and the lower part cylindrical surface of the annular cavity inner wall of the variable diameter movable cylinder joint is located on the same cylindrical surface as the annular cavity inner wall of the middle movable pump cylinder. The middle movable pump cylinder slid circularly and accurately along the cylinder cavity of the external fixed pump cylinder relied on the layered cylindrical sliding pair of the fixed plunger and the single-plate cylindrical surface sliding pair of the diversion centering plate, combined with the dynamic pressure liquid film of the upper movable spiral body and the stable liquid film of the lower fixed spiral body.

The pump cylinder coupling is a circular box shape with an opening facing upward, and the bottom of the pump cylinder coupling is provided with the coupling diversion hole and the annular sand ditch along the radial direction from the inside to the outside, the two walls of the annular sand ditch of the pump cylinder coupling adopt cylindrical surfaces and are arranged coaxially with the hole walls of the pump cylinder coupling diversion hole, the bottom surface of the annular sand ditch is flat and intersects at right angles with the center line of the external pump cylinder, and the diameter of the coupling diversion hole is equal to the inner diameter of the internal fixed pump cylinder.

The springing fixed cone valve and the fixed plunger adopt integrated structure of fixed cone valve and plunger, the fixed cone valve opens and closes smoothly through the assists of guide rod integrated with the fixed cone valve and fixed cone valve springs, which can solve the problem of difficulty in opening of the pump valve and loose closing of the pump valve in the highly inclined well sections. The integrated structure includes fixed cone valve body, fixed cone valve seat; fixed cone valve cover, diversion centering plate, and guide rod integrated with the fixed cone valve and fixed cone valve spring. The fixed cone valve spring adopts a compression spring, and its maximum elastic force is equal to the sum of the force of gravity of the fixed cone valve body and the guide rod integrated with fixed cone valve.

The outer ring surface of the fixed cone valve body is successively provided with a lower spring retaining groove and a fixed valve body sealing surface, the fixed valve body sealing surface and the fixed valve seat sealing surface of the fixed cone valve body adopt the same taper inverted cone surfaces, and the conical surface diameter of the large end circular surface of the fixed valve body sealing surface is less than the cylindrical surface diameter of the cavity wall of the fixed valve diversion cavity, and the small end circular surface diameter of the fixed valve body sealing surface is less than the hole diameter of the fixed valve hole in the fixed cone valve seat. The annular cavity inner wall of the fixed cone valve body adopts a variable diameter surface and is connected to the fixed rod joint of the guide rod integrated with the fixed cone valve.

The fixed cone valve seat adopts a circular ring structure, the annular cavity inner wall of the fixed cone valve seat is successively provided with a fixed valve seat sealing surface and a fixed valve hole along the axial direction, and the sealing surface of the fixed valve seat and the fixed valve body sealing surface are precisely matched to form a fixed cone valve sealing ring belt. The width of the sealing ring of the fixed cone valve is greater than the one third of cone height where the sealing surface is located in the fixed valve body.

The fixed cone valve cover is a circular box shape with an opening facing downward. The bottom of the box of the fixed cone valve cover is provided with an upper spring groove and a circular hole is drilled in the center of the bottom of the box. The upper spring groove of the fixed cone valve cover and the lower spring groove of the fixed cone valve body are matched with the fixed cone valve spring to realize the upper and lower bidirectional limit of the fixed cone valve spring. The annular cavity inner wall of the fixed cone valve cover is successively provided with a fixed valve seat cavity, a fixed valve diversion cavity and a fixed valve cover hole along the axial direction. The fixed cone valve seat is placed in the fixed valve seat cavity of the fixed cone valve cover and axially fixed through the internal fixed pump cylinder. The fixed valve diversion cavity wall of the fixed cone valve cover adopts a cylindrical surface and is in communication with the fixed valve cover hole. The fixed valve cover hole of the fixed cone valve cover adopts a circular channel and is evenly distributed along the circumferential direction. The valve cover hole is arranged obliquely, so that the liquid flow in the fixed pump cylinder successively flows through the fixed valve hole and the fixed valve diversion cavity, and is discharged to the cylinder cavity of the middle movable pump cylinder through the fixed valve cover hole and the arched diversion hole.

The guide rod integrated with the fixed cone valve is successively provided with a fixed rod cover, a fixed rod body and a fixed rod joint along the axial direction, the fixed rod joint connects the guide rod integrated with the fixed cone valve and the fixed cone valve body together as a whole through threads, and the outer ring surface of the fixed rod body is precisely matched with the both circular hole walls in the bottom of the fixed cone valve cover and on the diversion centering plate simultaneously, the guide rod integrated with the fixed cone valve realizes accurate reciprocating sliding relied on the double-valve cylindrical surface sliding pair, space is kept between the fixed rod cover and the fixed rod shaft shoulder and the upper end surface of the diversion centering plate.

The diversion centering plate adopts a round copper plate, and the outer ring surface of the diversion centering plate is precisely matched with the annular cavity inner wall of the middle movable pump cylinder to form a single-plate cylindrical surface sliding pair. The center part of the diversion centering plate is drilled with a circular hole and there are arched diversion holes evenly distributed along the circumferential direction around the circular hole. The cross section of each arched diversion hole in the axial direction is comprised of a semicircle and a rectangle. The sum of the sectional area of each arched diversion hole in the diversion centering plate, the sectional area of the fixed valve hole in the fixed cone valve seat, and the sectional area of the fixed valve cover hole in the fixed cone valve cover are equal.

The fixed plunger adopts a fixed short plunger, which is combined with the middle movable pump cylinder to prevent sand from depositing to the top of the fixed plunger. The fixed plunger reduces the friction loss between the fixed plunger and the middle movable pump cylinder relied on the layered wearing ring.

The annular cavity inner wall of the fixed plunger is threaded and connected to the upper part of the internal fixed pump cylinder, and the outer ring surface of the fixed plunger is successively arranged with a plunger capturing cone and a anti-wear groove along the axial direction. The cross-section of the anti-wear groove of the fixed plunger is rectangular, all anti-wear grooves are arranged in layers at equal intervals, and the outer ring wall surfaces of the fixed plunger between the anti-wear grooves are matched with the annular cavity inner wall of the middle movable pump cylinder to form layered cylindrical sliding pair; The anti-attrition groove in the fixed plunger is embedded with a wearing ring, and the wearing ring adopts a split bearing bush, the material of the wearing ring is made of anti-wear alloy, the cylindrical diameter of the outer ring surface of the wearing ring is the same as the annular clearance of between the middle movable pump cylinder and the fixed plunger, and the outer ring surface of the wearing ring closely fits with the annular cavity inner wall of the middle movable pump cylinder, by which, the frictional loss between the fixed plunger and the middle movable pump cylinder is reduced.

The movable cone valve integrated with guide rod adopts a guide rod type traveling cone valve and smoothly opens and closes through the guiding function of the guide rod integrated with movable cone valve, by which the problem of pump valve leakage in highly deviated well section can be solved. The movable cone valve integrated with guide rod includes the movable cone valve body, the movable cone valve seat, the movable cone valve cover and the guide rod integrated with movable cone valve.

The outer ring surface of the movable cone valve body is provided with a sealing surface, the movable valve body sealing surface and the movable valve seat sealing surface of the movable cone valve body adopt the same taper inverted cone surfaces, and the conical surface diameter of the large end circular surface of the movable valve body sealing surface is less than the cylindrical surface diameter of the cavity wall of the movable valve diversion cavity, and the small end circular surface diameter of the movable valve body sealing surface is less than the hole diameter of the movable valve hole in the movable cone valve seat The movable cone valve seat adopts a circular ring body, the annular cavity inner wall of the movable cone valve seat is successively provided with the movable valve seat sealing surface and the movable valve hole along the axial direction, the sealing surface of the movable cone valve seat is precisely matched with and the sealing surface of the movable valve body to form a movable cone valve sealing ring belt, by which the problem of pump valve leakage in highly deviated well section can be solved. The cross-sectional area of the movable valve hole in the movable cone valve seat is equal to the sum of the cross-sectional area of each valve cover hole in the movable cone valve cover.

The movable cone valve cover adopts a thick-walled cylinder, and the annular cavity inner wall of the movable cone valve cover is successively provided with the movable valve seat cavity, the movable valve diversion cavity, the movable valve cover hole and the variable diameter threaded joint along the axial direction. The movable cone valve cover is placed in the movable valve seat cavity of the movable cone valve cover and is axially fixed through the variable diameter movable cylinder joint. Both ends of the variable diameter threaded joint are with threads of different nominal diameters, and the rod string is connected to the guide rod integrated with the movable cone valve through threads. The cavity wall of the movable valve diversion cavity adopts a cylindrical surface and is in communication with the movable valve cover hole. The movable valve cover hole in the movable cone valve cover adopts a tapered channel and is evenly distributed along the circumferential direction. Each movable cone valve cover hole is arranged obliquely along the circumferential direction, so that the liquid flow in the middle movable pump cylinder successively flows through the movable valve hole and the movable valve diversion cavity, and then is injected into the cylinder cavity of the external fixed pump cylinder after decompressed and accelerated passed through the movable valve cover hole to avoid sand deposition.

The guide rod integrated with the movable cone valve is successively provided with a movable rod body and a movable rod joint along the axial direction. The movable rod joint of the guide rod integrated with the movable cone valve is connected with the movable cone valve cover through threads, and the outer ring surface of the movable rod body is precisely matched with the annular cavity inner wall of the movable cone valve body to form a single-valve cylindrical surface sliding pair, and the guide rod integrated with the movable cone valve realizes the guiding function relied on the single-valve cylindrical surface sliding pair.

The combined type movable and fixed double-centralizer adopts a combined type movable and fixed double-spiral centering structure, which realizes the follow-up centering of the middle movable pump cylinder through the dynamic pressure liquid film of the upper movable spiral body, and realizes the spiral centering of the middle movable pump cylinder combined with the stable liquid film in the lower fixed spiral body. The lower fixed spiral body of the movable and fixed double-centralizer drains the sand at the bottom of the external fixed pump cylinder to the annular sand ditch in time through spiral stirring, by which the eccentric wear problem between the fixed plunger body and the middle movable pump cylinder is solved. The combined type movable and fixed double-centralizer includes an upper movable spiral, a lower fixed spiral, a movable centering limit ring and a fixed centering coupling.

The upper movable spiral body adopts a rotating spiral tooth impeller, the lower fixed spiral body adopts a fixed spiral tooth impeller, the upper movable spiral body consists of the upper spiral teeth body and an upper centering base tube, and the upper spiral teeth are evenly distributed on the outer ring surface of the upper centering base tube along the circumferential direction. The lower spiral body consists of the lower spiral teeth body and a lower centering base tube. The lower spiral teeth are evenly distributed on the outer ring surface of the lower centering base tube along the circumferential direction. The inner diameter of the lower centering base tube is equal to the inner diameter of the middle movable pump cylinder. Each spiral tooth line of the upper spiral tooth is a spiral line that expands along the outer ring surface of the upper centering base tube, and each spiral tooth line of the lower spiral tooth is a spiral line that expands along the outer ring surface of the lower centering base tube.

Each spiral tooth space of the upper spiral teeth gradually decreases from bottom to top along the tooth line and is trapezoid at where the spiral tooth is perpendicular to end face of normal plane of the spiral tooth line, at the same time, the top surface of each spiral tooth of the upper spiral tooth body adopts a clearance fit with the external fixed pump cylinder wall, the annular cavity inner wall of the upper centering base tube adopts a clearance fit with the middle movable pump cylinder wall, too, so that the upper spiral teeth guide the liquid flow carrying sand in the upper spiral teeth space to the cavity above the middle movable pump cylinder in time. The upper spiral tooth body is used to reduce the amount of sand deposition in the annular cavity between the external fixed pump cylinder and the middle movable pump cylinder. At the same time, the liquid flow forms a dynamic pressure liquid film between the upper movable spiral body and the external fixed pump cylinder.

Each spiral tooth of the lower spiral tooth body is rectangular on the normal surface end surface perpendicular to the tooth line, and the cross-sectional area of the normal surface end surface gradually increases along the tooth line from bottom to top, whereby the lower spiral tooth body The cross-sectional area of the lower spiral tooth gap between each spiral tooth gradually decreases from bottom to top along the tooth line. The lower spiral tooth body in time spirally stirs the liquid flow at the bottom of the annular cavity between the external pump cylinder and the internal pump cylinder and drains the sand particles. To the annular sand ditch of the pump cylinder coupling, at the same time, a clearance fit is adopted between the top surface of each spiral tooth of the lower spiral tooth body and the cylinder wall of the external pump cylinder, and the liquid flow is on the tooth top surface of the lower spiral tooth body. A stable liquid film is formed between the external fixed pump cylinder and the cylinder wall, so as to realize the spiral centering of the middle movable pump cylinder.

The annular cavity inner wall lower part of the lower centering base tube of the lower fixed spiral body is milled with a centering capturing conical surface. The centering capturing conical surface in the lower fixed spiral body is matched with the plunger capturing conical surface in the fixed plunger, and both of them has and has the same taper, by which the movable and fixed double-centralizer can dock with the fixed plunger quickly in the pit. The top surface of the spiral teeth of the lower spiral teeth are provided with the anti-collision cone surfaces, the anti-collision cone surfaces adopt the inverted cone surface shape to avoid the movable and fixed double-centralizer colliding the tubing string wall or the cylinder wall of the external fixed pump cylinder during the installation operation in the pit.

The movable centering limit ring adopts a double-ring structure to realize the upper limit position of the upper movable spiral body, the annular cavity inner wall of the fixed centering coupling is with sealing pipe threads and connects the lower fixed spiral body and the middle movable pump cylinder together. The outer ring surface diameter of the fixed centering coupling is equal to the outer ring surface diameter of the upper cylinder limit ring and the outer ring surface diameter of the movable centering limit ring.

In the upstroke suction operation of the spiral centering plug-valve integrated cone valve, relied on the layered cylindrical sliding pair, the single-plate cylindrical surface sliding pair, the dynamic pressure liquid film of the upper movable spiral body and the stable liquid film of the lower fixed spiral body, the center movable pump cylinder realizes follow-up centering and spiral centering, and accurately slides upwards with the rod, the flow pressure in the cylinder cavity of the middle movable pump cylinder decreases, and the fixed cone valve opens smoothly through the assists of guide rod integrated with the fixed cone valve and fixed cone valve springs, the liquid flow successively flows through the fixed valve hole and the fixed valve diversion cavity, and is diverted to the cylinder cavity of the middle movable pump cylinder through the fixed valve cover hole and the arched diversion hole, at the same time, the liquid flow above the spiral body follows into the tubing string cavity with the rod string; in the down stroke, the middle movable pump cylinder realizes follow-up centering and spiral centering and accurately slides downwards with the rod string, the flow pressure inside the middle movable pump cylinder cavity increases, and the movable cone valve integrated with the guide rod opens smoothly relied on the guiding function of the guide rod integrated with the movable cone valve. The liquid flow successively flows through the movable valve hole and the movable valve diversion cavity, and then is injected into the cylinder cavity of the external fixed pump cylinder after decompressed and accelerated passed through the movable valve cover hole to avoid sand deposition. The upper spiral teeth guides the liquid flow to the cylinder cavity above the middle movable pump cylinder, and the lower spiral teeth drains the sand to the annular sand ditch through spiral stirring,

The technical effect that can be achieved by the present invention is that the plug and valve integrated cone valve pump uses three pump cylinders, which are combined type including two fixed cylinders and a dynamic cylinder, two centralizers, which are combined type including a dynamic spiral centralizer and fixed spiral centralizer, a fixed cone valve, a cylinder and plug integrated springing fixed cone valve, a fixed plunger and a movable guide rod cone valve to solve the technological difficulties such as stuck pump by sand when production operation in the horizontal wells and inclined wells under condition of low liquid volume, difficult to open and close pump valve under condition of low submergence depth, the eccentric wear of the plunger and the pump cylinder and the leakage of the pump valve in the highly deviated well sections. The combined type movable and fixed three-cylinder body avoids sand falling into the annular clearance between the middle movable pump cylinder and the fixed plunger to cause wearing relied on one movable pump cylinder and two fixed pump cylinders. The fixed plunger adopts a fixed short plunger, which is combined with the middle movable pump cylinder to prevent sand from depositing to the top of the fixed plunger. The fixed plunger reduces the friction loss between the fixed plunger and the middle movable pump cylinder relied on the layered wearing ring. The springing fixed cone valve adopts a springing type fixed cone valve, which make the fixed cone valve opened and closed smoothly through the assists of guide rod integrated with the fixed cone valve and fixed cone valve springs. The guide rod integrated with the movable cone valve opens and closes smoothly through the guiding action of guide rod integrated with the movable cone valve. The two movable and fixed centralizers realize the follow-up centering and spiral centering of the middle movable pump cylinder through the dynamic pressure liquid membrane of the upper movable spiral and the fixed liquid membrane of the lower fixed spiral. The sand is drained to the annular sand furrow in time through spiral stirring.

BRIEF DESCRIPTION OF THE PICTURES

The present invention is further described in the following embodiments, but is not limited to these embodiments.

FIG. 1 is a typical structural sketch of the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers proposed by the present invention.

FIG. 2 is a structural sketch of the movable and fixed three-cylinder body in the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers.

FIG. 3 is a structural sketch of the springing fixed cone valve in the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers.

FIG. 4 is a structural sketch for the fixed cone valve body, the fixed cone valve seat, the fixed cone valve cover and the guide rod integrated with the fixed cone valve in the springing fixed cone valve.

FIG. 5 is a structural sketch of the fixed plunger in the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers.

FIG. 6 is a structural sketch of the movable cone valve integrated with guide rod in the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers.

FIG. 7 is a structural sketch for the movable cone valve body, the movable cone valve seat, the movable cone valve cover and the guide rod integrated with the movable cone valve in the guide rod integrated with the movable cone valve.

FIG. 8 is a structural sketch of the movable and fixed double-centralizer in the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers.

FIG. 9 is a structural sketch of the upper movable spiral body in the movable and fixed double-centralizer.

FIG. 10 is a structural sketch of the lower fixed spiral body in the movable and fixed double-centralizer.

FIG. 11 is a sketch of installation operation work flow for the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers in the pit.

FIG. 12 is a sketch of pumping operation work flow of the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers.

In the Figures, 1—rod, 2—movable cone valve integrated with guide rod, 3—springing fixed cone valve, 4—fixed plunger, 5—movable and fixed double centralizers, 6—combined type movable and fixed three-cylinder body, 7—external fixed pump cylinder, 8—middle movable pump cylinder, 9—internally fixed pump cylinder, 10—pump cylinder coupling, 11—coupling diversion hole, 12—annular sand ditch , 13—lower cylinder limit ring, 14—upper cylinder limit ring, 15—variable diameter movable cylinder joint, 16—guide rod integrated with the fixed cone valve, 17—diversion centering plate, 18—fixed cone valve cover, 19—fixed cone valve spring, 20—fixed cone valve body, 21—fixed cone valve seat, 22—fixed cone valve sealing ring belt, 23—arched diversion hole, 24—single-plate cylindrical surface sliding pair, 25—double-valve cylindrical surface sliding pair, 26—fixed valve diversion cavity, 27—fixed valve cover hole, 28—fixed valve seat cavity, 29—fixed valve hole, 30—fixed valve seat sealing surface, 31—fixed valve body sealing surface, 32—lower spring groove, 33—fixed rod joint, 34—upper spring groove, 35—fixed rod body, 36—fixed rod cover, 37—fixed plunger, 38—wearing ring, 39—anti-wear groove, 40—layered cylindrical sliding pair, 41—plunger capturing cone, 42—movable cone valve cover, 43—guide rod integrated with the movable cone valve, 44—movable cone valve body, 45—movable cone valve seat, 46—single-valve cylindrical surface sliding pair, 47—movable cone valve sealing ring belt, 48—variable diameter threaded joint, 49—movable valve cover hole, 50—movable valve diversion cavity, 51—movable valve seat cavity, 52—movable rod joint, 53—movable rod body, 54—movable valve hole, 55—movable valve seat sealing surface, 56—movable valve body sealing surface, 57—movable centering limit ring, 58—upper movable spiral body, 59—fixed centering coupling, 60—lower fixed spiral body, 61—upper spiral tooth body, 62—upper centering base tube, 63—upper spiral tooth space, 64—lower spiral tooth body, 65—lower centering base tube, 66—anti-collision conical surface, 67—centering capturing conical surface, 68—lower spiral tooth space,

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

In FIG. 1, the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers is mainly composed of the movable cone valve integrated with the guide rod 2, the springing fixed cone valve 3, the fixed plunger 4, the movable and fixed double-centralizer 5 and the combined type movable and fixed three-cylinder body 6, the plug and valve integrated cone valve pump uses the combined type two fixed cylinders and one movable cylinder (movable and fixed three-cylinder body 6), combined type a movable spiral centralizer and a fixed spiral centralizer (movable and fixed double-centralizer 5), a fixed cone valve and a plunger integrated springing fixed cone valve 3, a fixed plunger 4 and a guide rod integrated with the movable cone valve (guide rod type traveling cone valve 2) to solve the technological difficulties such as stuck pump by sand when production operation in the horizontal wells and inclined wells under condition of low liquid volume, difficult to open and close pump valve under condition of low submergence depth, the eccentric wear of the plunger and the pump cylinder and the leakage of the pump valve in the highly deviated well sections.

In FIG. 1. The plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers adopts an axial symmetry cylinder body structure on the whole, which is connected to the tubing string and the air anchor through the movable and fixed three-cylinder body 6, and is connected with the rod string 1 through the movable cone valve integrated with the guide rod 2, the movable cone valve integrated with the guide rod 2, the combined type movable and fixed double-centralizer 5, and the middle movable pump cylinder of the movable and fixed three-cylinder body 6 move up and down with the rod 1; the springing fixed cone valve 3 and the fixed plunger 4 are arranged in the cylinder cavity of the middle movable pump cylinder of the movable and fixed three-cylinder body 6 from top to bottom along the axial direction, and the springing fixed cone valve 3, the fixed plunger 4, the external fixed pump cylinder and the internal fixed pump cylinder of the movable and fixed three-cylinder body 6 are fixed at the bottom of the tubing string.

In FIG. 1, before the assembly of the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers, the externally fixed pump cylinder of the movable and fixed three-cylinder body 6 and the outer ring surface of the pump cylinder coupling are painted to prevent corrosion, the annular cavity inner walls of the external fixed pump cylinder, the middle movable pump cylinder and the internal fixed pump cylinder of the movable and fixed three-cylinder body 6 are respectively to conduct chemical plating treatment, the outer ring surfaces of the middle movable pump cylinder and the internal fixed pump cylinder, and the outer ring surface of the fixed plunger of the fixed plunger body 4, and the upper movable spiral body and the lower fixed spiral body of the movable and fixed double-centralizer 5 are to conduct spraying welding treatment respectively. The fixed plunger of the fixed plunger body 4 is placed in the middle movable pump cylinder of the movable and fixed three-cylinder body 6, at the same time, the upper movable spiral body and the lower fixed spiral body of the movable and fixed double-centralizer 5 are placed in the external fixed pump cylinder of the movable and fixed three-cylinder body 6, when the devices above are pulled back and forth, they should be flexible to rotate and slide without obstruction. The guide rod integrated with the fixed cone valve of the springing fixed cone valve 3 is inserted into the guide centering plate and the fixed cone valve cover, and the guide rod integrated with the movable cone valve of the movable cone valve integrated with the guide rod 2 inserts the movable cone valve body, when the devices above are pulled back and forth, they should be flexible to rotate and slide without obstruction. Keep the inner walls of the external fixed pump cylinder, the middle movable pump cylinder and the internal fixed pump cylinder of the movable and fixed three-cylinder body 6, the lower fixed spiral body of the movable and fixed double-centralizer 5 and the movable cone valve cover of the movable cone valve integrated with the guide rod 2 and the fixed cone valve cover of the springing fixed cone valve 3 clean, and finally check whether the upper movable spiral body and the lower fixed spiral body of the movable and fixed double-centralizer 5 are damaged, and check whether all threaded connections are firm and non-rust.

In FIG. 1, in the assembly operation of the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers, the wearing ring of the fixed plunger body 4 is embedded into the anti-wear groove of the fixed plunger, and the fixed cone valve spring of the fixed cone valve 3 is integrated with the fixed cone valve cover and the fixed cone valve body. The guide rod integrated with the fixed cone valve of the springing fixed cone valve 3 is inserted into the guide centering plate and the fixed cone valve cover and is connected with the fixed cone valve body through threads, and then the fixed cone valve seat is placed in the fixed cone valve cover and successively connects the fixed plunger body 4 and the springing fixed cone valve 3 with the upper part of the internal fixed pump cylinder of the movable and fixed three-cylinder body 6 through threads, after that, the external fixed pump cylinder and the internal fixed pump cylinder of the movable and fixed three-cylinder body 6 are connected together as a whole through the pump cylinder coupling. Next, the lower fixed spiral body of the movable and fixed double-centralizer 5 is connected to the bottom of the middle movable pump cylinder through a fixed centering coupling, the upper movable spiral body is sleeved on the upper part of the middle movable pump cylinder and the movable centering limit ring is tightened, after that, the guide rod integrated with the movable cone valve of the movable cone valve integrated with guide rod 2 is connected with the movable cone valve cover through threads, and then the movable cone valve body and the movable cone valve seat are successively placed into the movable cone valve cover, and the movable cone valve integrated with guide rod 2 is connected to the top of the middle movable pump cylinder through threads.

In FIG. 2, the movable and fixed three-cylinder body 6 includes the external fixed pump cylinder 7, the middle movable pump cylinder 8, the internal fixed pump cylinder 9 and the pump cylinder coupling 10. The specifications of the external fixed pump cylinder 7 and the pump cylinder coupling 10 are adjusted with the pipe diameter of the tubing string. Factors such as the maximum stroke length of the plug valve integrated cone valve pump, the axial length of the fixed plunger body 4 and the anti-impact stroke need to be considered for the axial length design of the middle movable pump cylinder 8. Factors such as liquid production capacity in the oil field and bottom pressure need to be considered for the diameter design of the coupling diversion hole 11 and the inner diameter design of the internal fixed pump cylinder 9.

In FIG. 2, in the movable and fixed three-cylinder body 6, the springing fixed cone valve 3 and the fixed plunger body 4 are connected together as a whole relied on the internal fixed pump cylinder 9, and the movable cone valve integrated with guide rod 2 and the movable and fixed double-centralizer 5 are connected together as a whole through the middle movable pump cylinder S to avoid sand from falling into the annular clearance between the middle movable pump cylinder 8 and the fixed plunger body 4 to cause wear. The external fixed pump cylinder 7 and the internal fixed pump cylinder 9 are connected together as a whole through the pump cylinder coupling 10. The box bottom of the pump cylinder coupling 10 is successively provided with the coupling diversion hole 11 and the annular sand ditch 12 from the inside to the outside along the radial direction. The lower cylinder limit ring 13 realizes the axial positioning of the fixed centering coupling of the movable and fixed double-centralizer 5, the upper cylinder limit ring 14 realizes the lower limit of the upper movable spiral body of the movable and fixed double-centralizer 5, and the outer wall of the variable diameter movable cylinder joint 15 is connected with the movable cone valve cover of the movable cone valve integrated with guide rod 2 and the movable centering limit ring of the movable and fixed double-centralizer 5 respectively through threads.

In FIGS. 3 and 4, the springing fixed cone valve 3 includes the guide rod integrated with the fixed cone valve 16, the diversion centering plate 17, the fixed cone valve cover 18, the fixed cone valve spring 19, the fixed cone valve body 20 and the fixed cone valve seat 21, the fixed cone valve body 20 and the fixed cone valve seat 21 are matched and selected based on the diameter of the coupling diversion hole 11 and the inner diameter of the internal fixed pump cylinder 9. The specification of the diversion centering plate 17 is consistent with the inner diameter of the middle movable pump cylinder 8. When selecting the specification of the fixed cone valve spring 19, factor such as the sum of the gravity of the guide rod integrated with the fixed cone valve 16 and the fixed cone valve body 20 need to be considered, when designing the sum of the cross-sectional area of the diversion centering plate 17 and each arched diversion hole 23, the cross-sectional area of the fixed valve hole 29 of the fixed cone valve seat 21, and the sum of the cross-sectional area of each fixed valve cover hole 27 of the fixed cone valve cover 18, factors such as liquid production capacity in the oil field, bottom hole pressure need to be considered.

FIG. 3 and 4, the springing fixed cone valve 3 assists the fixed cone valve body 20 on the fixed cone valve seat 21 to smoothly open and close through the guide rod integrated with the fixed cone valve 16 and the fixed cone valve spring 19, so as to solve the problem of difficulty in opening of the pump valve and loose closing of the pump valve in the highly inclined well sections, the springing fixed cone valve 3 is opened in the upstroke and is closed in the down stroke, the fixed cone valve body sealing surface 31 of the fixed cone valve body 20 and the fixed valve seat sealing surface 30 of the fixed cone valve seat 21 form the fixed cone valve sealing ring belt 22, the upper spring groove 34 of the fixed cone valve cover 18 and the lower spring groove 32 of the fixed cone valve body 20 are simultaneously matched with the fixed cone valve spring 19 to realize the upper and lower bidirectional limit of the fixed cone valve spring 19, the sum of the cross-sectional area of each arched diversion hole 23 of the guide centering plate 17, the cross-sectional area of the fixed valve hole 29 of the fixed cone valve seat 21 and the sum of the cross-sectional area of each fixed valve cover hole 27 of the fixed cone valve cover 18 are equal, the diversion centering plate 17 and the middle movable pump cylinder 8 form the single-plate cylindrical sliding pair 24. The fixed rod joint 33 is connected with the guide rod integrated with the fixed cone valve 16 and the fixed cone valve body 20 together as a whole. The fixed rod body 35, the fixed cone valve cover 18 and the diversion centering plate 17 form the double-valve cylindrical surface sliding pair 25, and the guide rod integrated with the fixed cone valve 16 is based on the double-valve cylindrical sliding pair 25 to achieve precise reciprocating sliding, the fixed rod body 35 and the fixed rod cover 36 form a shaft shoulder where the cross section changes, the fixed cone valve seat 21 is placed in the fixed valve seat cavity 28 and is axially fixed through the internal fixed pump cylinder 9, and the fixed valve diversion cavity 26 is in communication with the fixed valve cover hole 27.

In FIG. 5, the specifications of the fixed plunger 37 and the wearing ring 38 of the fixed plunger body 4 are consistent with the inner diameter of the middle movable pump cylinder 8. The specifications of the wearing ring 38 are adjusted based on the annular clearance between the fixed plunger 37 and the middle movable pump cylinder 8.

In FIG. 5, the fixed plunger body 4 is matched with the middle movable pump cylinder 8 to realize the suction and lifting of the liquid flow, and prevent sand from depositing on the fixed plunger 37, the anti-wear groove 39 of the fixed plunger 37 is embedded the anti-attrition ring 38 to reduce the friction loss between the fixed plunger 37 and the middle movable pump cylinder 8. The fixed plunger 37 between anti-wear grooves 39 and the middle movable pump cylinder 8 form the annular clearance, which is matched with the layered cylindrical sliding pair 40. The upper part of the outer ring surface of the fixed plunger 37 is provided with the plunger capturing conical surface 41.

In FIGS. 6 and 7, the movable cone valve integrated with guide rod 2 includes the movable cone valve cover 42, the guide rod integrated with the movable cone valve 43, the movable cone valve body 44 and the movable cone valve seat 45. The specification of the movable cone valve cover 42 is consistent with the rod diameter of the rod 1, the movable cone valve body 44 is matched with the movable cone valve seat 45, the specification of the movable cone valve body 44 is selected based on the diameter of the cylindrical surface where the upper part of the annular cavity inner wall of the variable diameter movable cylinder joint 15 is located. Factors such as liquid production capacity in the oil field and bottom hole pressure need to be considered for the design of the cross-sectional area of the movable valve hole 54 of the movable valve cover seat 45 and the sum of the cross-sectional area of each movable valve cover hole 49 of the movable cone valve cover 42.

In FIG. 6 and FIG. 7, the movable cone valve integrated with guide rod 2 opens and closes smoothly relied on the guiding function of the guide rod integrated with the movable cone valve 43, which solves the problem of pump valve leakage in the highly inclined well section, and the movable cone valve integrated with guide rod 2 is opened in the down stroke and closed in the upstroke. The movable valve body sealing surface 56 of the movable cone valve body 44 and the movable valve seat sealing surface 55 of the movable cone valve seat 45 form the movable cone valve sealing ring belt 47, the movable rod body 53 and the movable cone valve body 44 form the single-valve cylindrical surface sliding pair 46, the guide rod integrated with the movable cone valve 43 realizes the guiding function relied on the single-valve cylindrical surface sliding pair 46, the guide rod integrated with the movable cone valve 43 is connected with movable rod joint 52 and rod 1 together as a whole through the variable diameter threaded joint 48, the movable cone valve seat 45 is placed in the movable valve seat cavity 51 and is axially fixed through the variable diameter movable fixed cylinder joint 15, the movable valve cover hole 49 is communicated with the movable valve diversion cavity 50, the cross-sectional area of the movable valve hole 54 of the movable cone valve seat 45 is equal to the sum of the cross-sectional area of each movable valve cover hole 49 of the movable cone valve cover 42.

In FIGS. 8 to 10, the movable and fixed double-centralizer 5 includes the movable centering limit ring 57, the upper movable spiral body 58, the fixed centering coupling 59 and the lower fixed spiral body 60, the specifications of the upper movable spiral body 58 and the lower fixed spiral body 60 are consistent with the size of the ring cavity between the external fixed pump cylinder 7 and the middle movable pump cylinder 8 of the movable and fixed three-cylinder body 6, and the specifications of the movable centering limit ring 57 and the fixed centering coupling 59 are the same as the outer diameter of the middle movable pump cylinder 8.

In FIGS. 8 to 10, dynamic pressure liquid films are formed between the upper movable spiral body 58 of the movable and fixed double-centralizer 5 and the external fixed pump cylinder 7 to realize the follow-up centering of the middle movable pump cylinder 8, stable liquid films are formed between the tooth top surface of the lower spiral tooth body 64 of the spiral body 60 and the cylinder wall of the external fixed pump cylinder 7 to realize the spiral centering of the middle movable pump cylinder 8, the lower fixed spiral body 60 drains the sand at the bottom of the external fixed pump cylinder 7 into the annular sand ditch 12 of the pump cylinder coupling 10, so as to solve the problem of eccentric wear between the fixed plunger 37 and the middle movable pump cylinder 8. The movable centering limit ring 57 realizes the upper limit of the upper movable spiral body 58, the fixed centering coupling 59 connects the lower fixed spiral body 60 and the middle movable pump cylinder 8 together as a whole. The upper spiral tooth body 61 is evenly distributed on the outer ring surface of the upper centering base tube 62 along the circumferential direction, and the lower spiral tooth body 64 is evenly distributed on the outer ring surface of the lower centering base tube 65 along the circumferential direction, the upper spiral tooth body 61 drains the liquid flow carrying sand in the upper spiral tooth space 63 into the upper cylindrical cavity of the middle movable pump cylinder 8 in time. The sectional area of the lower spiral tooth space 68 is gradually decreased from bottom to top along the tooth line, the centering capturing conical surface 67 of the lower fixed spiral body 60 matches the plunger catching conical surface 41 of the fixed plunger 37, and the anti-collision conical surface 66 avoids the movable and fixed double-centralizer 5 colliding the tubing string wall or the cylinder wall of the external fixed pump cylinder 7 during the installation operation in the pit with the rod 1.

In FIG. 11, in the down hole installation operation process of the plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers, the external fixed pump cylinder 7, the internal fixed pump cylinder 9 and the pump cylinder coupling 10, the springing fixed cone valve 3, and the fixed plunger body 4 of the movable and fixed three-cylinder body 6 are connected to the bottom end of the tubing string and go down into the wellbore fluid production part with the tubing string, and then the middle movable pump cylinder 8 of the movable and fixed three-cylinder body 6, the movable cone valve integrated with guide rod 2 and the movable and fixed double-centralizer 5 are connected to the bottom end of the rod 1 and go down the annular cavity between the external fixed pump cylinder 7 and the internal fixed pump cylinder 9 with the rod 1, after the plunger capturing conical surface 41 of the fixed plunger 37 is matched with the centering capturing conical surface 67 of the lower spiral body 60, the movable and fixed double-centralizer 5 quickly dock with the fixed plunger body 4 down hole, until the bottom end of the lower fixed spiral body 60 fits the pump cylinder coupling 10, the middle movable pump cylinder 8, movable cone valve integrated with guide rod 2 and the movable fixed double-centralizer 5 are moved up together with the rod 1.

In FIG. 12, in the plug-valve integrated cone valve suction operation upstroke of plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers, dynamic pressure liquid films are formed between the upper movable spiral body 58 of the movable and fixed double-centralizer 5 and the external fixed pump cylinder 7, at the same time, stable liquid films are formed between the tooth top surface of the lower spiral tooth body 64 of the spiral body 60 and the cylinder cavity of the external fixed pump cylinder 7, the middle movable pump cylinder 8 of the movable and fixed three-cylinder body 6 realizes follow-up centering and spiral centering, at the same time, relied on the layered cylindrical sliding pair 40 of the fixed plunger 37 and the single-plate cylindrical sliding pair 24 of the diversion centering plate 17, the middle movable pump cylinder 8, the rod 1, the movable cone valve integrated with guide rod 2 and the movable and fixed double-centralizer 5 accurately slide upward along the cylinder cavity of the externally fixed pump cylinder 7, and the flow pressure in the cylinder cavity of the middle movable pump cylinder 8 decreases, the movable cone valve integrated with guide rod 2 is in the closed state relied on the guiding function of the guide rod integrated with the movable cone valve 43, and the springing fixed cone valve 3 is smoothly opened through the assists of the guide rod integrated with the fixed cone valve 16 and the liquid flows through the coupling diversion hole 11 into the cylinder cavity of the internal fixed pump cylinder 9, and then the liquid flows through the fixed valve hole 29 and the fixed valve diversion cavity 26, and is diverted to the cylinder cavity of the middle movable pump cylinder 8 passed through the fixed valve cover hole 27 and the arched diversion hole 23, at the same time, the liquid flow above the upper movable spiral body 58 enters the pipe cavity of the tubing string with the rod 1.

In FIG. 12, in the plug-valve integrated cone valve suction operation down stroke of plug and valve integrated cone valve pump with combined type movable and fixed three cylinders and two spiral centralizers, dynamic pressure liquid films are formed between the upper movable spiral body 58 and the external fixed pump cylinder 7, at the same time, stable liquid films are formed between the tooth top surface of the lower spiral tooth body 64 and the external fixed pump cylinder 7, the middle movable pump cylinder 8 realizes follow-up centering and spiral centering, at the same time, relied on the layered cylindrical sliding pair 40 and the single-plate cylindrical sliding pair 24, the middle movable pump cylinder 8, the rod 1, the movable cone valve integrated with guide rod 2 and the movable and fixed double-centralizer 5 accurately slide downward along the cylinder cavity of the externally fixed pump cylinder 7. The flow pressure in the cylinder cavity of the middle movable pump cylinder 8 increases, the springing fixed cone valve 3 assists the fixed cone valve body 20 in the closed state through the guide rod integrated with the fixed cone valve 16 and the fixed cone valve spring 19, and the movable cone valve integrated with guide rod 2 opens smoothly relied on the guiding function of the guide rod integrated with the movable cone valve 43, the liquid flows through the cylinder cavity of the middle movable pump cylinder 8 and enters the variable diameter movable cylinder joint 15, and then the liquid successively flows through the movable valve hole 54 and the movable valve diversion cavity 50, which are decompressed and accelerated passed through the movable valve cover hole 49 and then injected into the cylinder cavity of the external fixed pump cylinder 7, the upper spiral tooth body 61 of the upper movable spiral body 58 drains the liquid flow carrying sand in the upper spiral tooth space 63 into the upper cylindrical cavity of the middle movable pump cylinder 8 in time, and the lower spiral tooth body 64 of the lower spiral body 60 spirally stirs the liquid flow at the bottom of the annular cavity between the external fixed pump cylinder 7 and the internal fixed pump cylinder 9 and in time and drains the sand to the annular sand ditch 12 of the pump cylinder coupling 10.

The embodiments above are only used to illustrate the present invention, where the structure and connection mode of each component may be changed. All equivalent transformation and improvement made on the basis of the technical solution of the present invention should not be excluded from the scope of the present invention. 

1. A moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump, characterized in: comprising a moving-fixed three-cylinder body, an elastic moving-fixed cone valve, a fixed plunger body, a guide rod moving cone valve, a moving-fixed double centering centralizer, and a bolt support, wherein the moving-fixed three-cylinder body comprises an outer fixed pump cylinder, a middle moving pump cylinder, and an inner fixed pump cylinder disposed coaxially from outside to inside, the guide rod moving cone valve and the moving-fixed double centralizer being disposed in the cylinder cavity of the outer fixed pump cylinder from top to bottom; the middle moving pump cylinder being connected to the bottom of the bolt support through the guide rod moving cone valve, the guide rod moving cone valve and the moving-fixed double centralizer reciprocating up and down with the bolt support; the elastic moving-fixed cone valve and the fixed plunger body being disposed in the cylinder cavity of the middle moving pump cylinder from up to bottom; the elastic moving-fixed cone valve and the fixed plunger body being connected to an integral through the inner fixed pump cylinder; the outer fixed pump cylinder and the inner fixed pump cylinder being fixed at the bottom of a tubing string through a pump cylinder coupling; the box bottom portion of the pump cylinder coupling being provided with a coupling diversion round hole and a desilting ring groove radially in turn from inside to outside.
 2. The moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump according to claim 1, characterizing in that the elastic moving-fixed cone valve comprises a fixed cone valve guide rod, a diversion centering plate, a fixed cone valve cover, a fixed cone valve spring, and a fixed cone body, and a fixed cone valve seat, wherein the outer ring surface of the fixed cone valve body is provided with a lower spring clamping slot and a fixed valve body sealing surface in turn, the inner wall of the annular cavity of the fixed cone valve seat being provided with a fixed valve seat sealing surface and a fixed valve hole along an axial direction in turn, the fixed cone valve body and the fixed cone valve seat matching with each other, a fixed cone valve sealing ring belt being formed between the fixed valve body sealing surface and the fixed valve seat sealing surface, the box bottom portion of the fixed cone valve cover being provided with an upper spring clamping slot, the fixed cone valve spring being located between the upper spring clamping slot and the lower spring clamping slot; the elastic moving-fixed cone valve realizing axial positioning with the inner fixed pump cylinder through the fixed cone valve seat cavity of the fixed cone valve cover; the fixed cone valve guide rod comprises a fixed rod cover, a fixed rod body, and a fixed rod joint disposed along an axial direction in turn, the fixed rod joint being connected with the fixed cone valve guide rod and the fixed cone valve body through threads, the fixed rod passing through the diversion centering plate and the fixed cone valve cover, and a double valve cylinder moving pair being formed between the diversion centering plate and the fixed cone valve cover; the diversion centering plate being located in the cylindrical cavity of the middle moving pump cylinder and forming a single plate cylinder moving pair between the inner walls of the middle moving pump cylinder, the central part of the diversion centering plate being drilled with a round hole and the surrounding thereof being provided with arched diversion holes circumferentially and uniformly distributed; the fixed cone valve guide rod and the fixed cone valve spring assisting in opening and closing of the fixed cone valve body.
 3. The moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump according to claim 2, characterizing in that the fixed cone valve body is fixed and sleeved on the inner fixed pump cylinder, the fixed plunger body comprising a fixed plunger and an anti-wear ring, the outer ring surface of the fixed plunger being provided with a plunger capturing conical surface and an anti-wear groove along an axial direction in turn, the anti-wear groove being inlaid with an anti-wear ring, an annular clearance being present between the fixed plunger and the middle moving pump cylinder, and matching to a layered cylinder moving pair.
 4. The moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump according to claim 3, characterizing in that the guide rod moving cone valve comprises a moving cone valve body, a moving cone valve seat, a moving cone valve cover, and a moving cone valve guide rod, wherein the outer ring surface of the moving cone valve body is provided with a moving valve body sealing surface, the inner wall of the annular cavity of the moving cone valve seat being provided with a moving valve seat sealing surface and a moving valve hole along an axial direction in turn, a moving cone valve sealing ring belt being formed between the moving valve body sealing surface and the moving valve seat sealing surface, the moving cone valve set being placed in the moving cone valve seat cavity of the moving cone valve cover, the upper portion of the moving cone valve guide rod being connected with the moving cone valve cover in a threaded manner, and the lower portion thereof passing through the moving cone valve body, and forming a single valve cylinder moving pair with the moving cone valve body; the guide rod moving cone valve being connected with the middle moving pump cylinder through the moving cone valve cover, the moving cone valve cover comprising a moving valve diversion cavity and a moving valve cover hole intercommunicated with each other; the guide rod moving cone valve being started and stopped according to the guiding effect of the moving cone valve guide rod.
 5. The moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump according to claim 4, characterizing in that the moving-fixed double centralizer comprises an upper moving spiral, a lower fixed spiral, a moving centering stop collar, and a fixed centering coupling, wherein the upper moving spiral is a rotary spiral tooth impeller, consisting of an upper spiral tooth body and an upper centering base tube; the lower fixed spiral is a fixed spiral tooth impeller, consisting of a lower spiral tooth body and a lower centering base tube; a tooth pitch of respective spiral teeth of the upper spiral tooth body gradually decreasing from bottom to top along a tooth line, and the cross-sectional area of a lower spiral tooth gap between spiral teeth of the lower spiral tooth body gradually decreasing from bottom to top along a tooth line; a stable liquid film is formed between the tooth top surface of the lower spiral tooth body and the cylinder wall of the outer fixed pump cylinder; a dynamic pressure liquid film is formed between the upper moving spiral and the outer fixed pump cylinder; the lower end of the lower fixed spiral is provided with a centering capturing conical surface which matches with the plunger capturing conical surface of the fixed plunger, realizing quick down hole docking between the fixed double centralizer and the fixed plunger body; the spiral tooth top surface of the lower spiral tooth body is provided with an anti-collision conical surface, the moving centering stop collar realizing upper limiting of the upper moving spiral, the fixed centering coupling connecting the lower fixed spiral to the middle moving pump cylinder to be an integral.
 6. The moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump according to claim 5, characterizing in that the middle moving pump cylinder is provided with a variable diameter moving tube joint, an upper cylinder stop collar, and a lower cylinder stop collar along an axial direction in turn, the middle moving pump cylinder and the guide rod cone valve realizing axial fixation through the variable diameter moving tube joint; the upper cylinder stop collar realizing lower limiting of the upper moving spiral, and the lower cylinder stop collar realizing axial positioning of the centering coupling; the diameter of the cylinder where the upper portion of the inner wall of the annular cavity of the variable diameter moving tube joint is located is equal to the aperture of the moving cone valve seat moving valve hole, and the cylinder where the lower portion of the inner wall of the annular cavity of the variable diameter moving tube joint is located on the same cylindrical plane as the inner wall of the annular cavity of the middle moving pump cylinder; the middle moving pump cylinder precisely slipping in a reciprocating manner along the cylinder cavity of the outer fixed pump cylinder according to the layered cylinder moving pair and the single plate cylinder moving pair by combining the dynamic pressure liquid film and the stable liquid film.
 7. The moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump according to claim 2, characterizing in that the fixed cone valve cover is a round box body with an opening downward, the upper spring clamping slot and the lower spring clamping slot matching with the fixed cone valve spring at the same time, the inner wall of the annular cavity of the fixed cone valve cover being provided with a fixed valve seat cavity, a fixed valve diversion cavity, and fixed valve cover holes along an axial direction in turn, the fixed valve cover holes being circular pore canals circumferentially and uniformly distributed, a liquid flow in the inner fixed pump cylinder flowing through the fixed valve holes and the fixed valve diversion cavity in turn, and being drained by the fixed valve cover holes and the arched diversion holes to the cylinder cavity of the middle moving pump cylinder; the outer ring surface of the fixed rod body precisely fitting with a round hole wall of the box bottom portion of the fixed cone valve cover and a round hole wall of the diversion centering plate, the fixed cone valve guide rod realizing a precise reciprocating slip according to the double valve cylinder moving pair, a shaft shoulder being formed at the joint of the fixed rod cover and the fixed rod body, a gap being maintained between the shaft shoulder and the upper end face of the diversion centering plate; the outer ring surface of the diversion centering plate precisely fitting with the inner wall of the annular cavity of the middle moving pump cylinder, cross sections along an axial direction of the respective arched diversion holes being formed by combining semicircles and rectangles, the sum of sectional areas of the arched diversion holes, and the sum of sectional areas of the fixed valve holes and sectional areas of the fixed valve cover holes being equal.
 8. The moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump according to claim 3, characterizing in that a compressed spring is used for the fixed cone valve cover, and a maximum elastic force is equal to the sum of the gravity of the fixed cone valve body and that of the fixed cone valve guide rod; inverted conical surfaces with the same conicity are used for the fixed valve body sealing surface and the fixed valve seat sealing surface, the diameter of the round surface of the big end of the conical surface where the fixed valve body sealing surface is located being less than the diameter of the cylinder where the cavity wall of the fixed valve diversion cavity is located, and the diameter of the round surface of the small end thereof being less than the aperture of the fixed valve hole, a variable diameter rotating surface being used for the inner wall of the annular cavity of the fixed cone valve body, and matching with the fixed rod joint; the fixed cone valve seat is a circular ring body, the fixed valve seat sealing surface precisely fitting with the fixed valve body sealing surface, the width of the fixed cone valve sealing ring belt being greater than one third of the cone height of the conical surface where the fixed valve body sealing surface is located.
 9. The moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump according to claim 3, characterizing in that the inner wall of the annular cavity of the fixed plunger is made with threads and connected to the upper portion of the inner fixed pump cylinder, the profile of the anti-wear groove presenting a rectangular shape, respective anti-wear grooves being arranged in a layered manner at equal intervals, the outer ring wail surface of the fixed plunger between each layer of an anti-wear groove fitting with the inner wall of the annular cavity of the middle moving pump cylinder; the material of the anti-wear ring is selected from an anti-friction alloy, the diameter of the cylinder where the outer ring surface of the anti-wear ring is located being the same as the size of an annular clearance between the middle moving pump cylinder and the fixed plunger, the outer ring surface of the anti-wear ring closely fitting with the inner wall of the annular cavity of the middle moving pump cylinder.
 10. The moving-fixed three-cylinder double-spiral centering plug-valve cone valve pump according to claim 4, characterizing in that a thin wall cylinder body is used for the moving cone valve cover, the inner wall of the annular cavity of the moving cone valve seat being provided with a moving valve seat cavity, a moving valve diversion cavity, a moving valve cover hole, and a variable diameter threaded joint along an axial direction in turn, both ends of the variable diameter threaded joint being made with threads with different nominal diameters, a cylindrical surface being used for the cavity wall of the moving valve diversion cavity, conical pore canals being used for the moving valve cover holes and circumferentially and uniformly distributed, a liquid flow in the middle moving pump cylinder flowing through the moving valve hole and the moving valve diversion cavity in turn, and thereafter being injected into the cylinder cavity of the outer fixed pump cylinder after depression and speedup by the moving valve cover hole, avoiding sand deposition; the moving cone valve guide rod is provided with a moving rod body and a moving rod joint along an axial direction in turn, the outer ring surface of the moving rod body precisely fitting with the inner wall of the annular cavity of the moving cone valve body, the moving cone valve guide rod realizing a guiding effect according to the single valve cylinder moving pair. 